1 000 t Walker型高温高压装置的使用与压力标定

 介绍了一种6-8型二级加压装置——1 000 t Walker型大腔体高温高压装置中样品的组装方式、组装件材料和压力标定方法。采用碳化钨作为压砧时,获得的最高压力超过20 GPa。压力标定方法采用相变点法,即利用Bi、Tl、ZnTe、Pb、SnS、GaAs等标准压力标定物质,通过测量其在室温高压下的电阻变化,确定相变点,进而获得高压腔体内的压力与外加载荷的关系。对具有不同二级压砧截角边长（4、6、8、12 mm）组装的内部实际压力进行标定,得到了外加载荷与内部压力的关系曲线,为今后在该装置上的实验样品组装及样品实际压力确定提供了准确的数据。     

一种以压力一维均匀分布为特征的长条形对顶压砧

针对圆形端面平面对顶压砧装置中压力梯度大的问题, 本文设计了一种长条形端面的平面对顶压砧, 相应的封垫也改为长条形. 原理分析表明: 这种压砧可在沿长条形中心线的狭长区域内产生均匀分布的高压力. 本文采用长20 mm宽5 mm长条形端面的硬质合金压砧配合叶腊石封垫进行压力标定, 实验结果显示: 这种装置可产生10 GPa以上的高压, 在长条形中心线上至少12 mm长度范围内的不同位置上产生的压力基本一致, 在2.55 GPa压力时测量偏差小于2.0%, 在7.7 GPa时测量偏差小于3.6%. 这种特点很有利于对细长样品进行精确的高压物性测量.     

复合型多晶金刚石末级压砧的制备并标定六面顶压机6-8型压腔压力至35GPa

通过分析二级6-8型大腔体静高压装置八面体压腔的受力状况, 研制了一种使用成本低、尺寸大且易于加工的多晶金刚石-硬质合金复合二级(末级)顶锤(压砧). 采用原位电阻测量观测Zr在高压下相变(α-ω, 7.96 GPa; ω-β, 34.5 GPa)的方法, 标定了由多晶金刚石-硬质合金复合末级压砧构建的5.5/1.5(传压介质边长/二级顶锤锤面边长, 单位: mm)组装的腔体压力. 实验表明, 自行研制的多晶金刚石-硬质合金复合末级压砧可使基于国产六面顶压机构架的二级加压系统的压力产生上限从约20 GPa提高到35 GPa以上, 拓展了国内大腔体静高压技术的压力产生范围. 应用这一技术, 我们期望经过末级压砧材料与压腔设计的进一步优化, 在基于国产六面顶压机的二级6-8 型大腔体静高压装置压腔中产生超过50 GPa的高压. 关键词： 二级6-8型大腔体静高压装置 多晶金刚石-硬质合金复合末级压砧 压力标定     

二级6-8型静高压装置厘米级腔体的设计原理与实验研究

利用大腔体静高压装置的实验数据,提出了"极限压缩体积比"的概念以及腔体与组装设计的一般性原理。通过对极限压缩体积比的分析,设计出了样品腔体达到厘米级的36/20(正八面体传压介质边长为36mm/末级压砧正三角形截角边长为20mm)组装。采用原位电阻观测Bi(Ⅲ-Ⅴ,7.7GPa),ZnTe(Ⅰ-Ⅱ,5GPa;Ⅱ-Ⅲ,8.9~9.5GPa;半导体-金属,11.5~13.0GPa)和ZnS(半导体-金属,15.6GPa)在高压下相变的方法,标定了36/20组装的腔体压力。实验结果表明所设计样品腔的尺寸大于10mm,压力可以达到15GPa以上。本工作使得基于国产6×2 500t(吨)铰链式六面顶压机的二级6-8型静高压装置在高压实验研究中具有更加广阔的应用前景。     

基于铰链式六面顶压机的二级6-8型大腔体静高压装置

报道了一种新型二级6-8型大腔体静高压装置.该装置是以国产DS6×800T铰链式六面顶压机为构架,在其六面体压腔中直接放入二级6-8模(球分割)增压装置以产生10GPa以上的压力,还实验了不同规格的预密封边和不同密度的叶蜡石对压力产生效率的影响,在室温下用BiⅠ-Ⅱ(2.55GPa),Ⅲ-Ⅴ(7.7GPa)和SnⅠ-Ⅱ(9.4GPa)在高压下的相变对14／8(8面体传压介质边长／8面体压腔边长)规格压腔进行了压力标定.实验结果表明,该系统可以在加载压力(油压)约为3×10⁶N(～42 关键词： 铰链式六面顶压机 6-8型球分割大腔体静高压装置 压力标定     

八面腔压机中一定尺寸的二级压砧上运行的最大组装

自八面腔静高压装置问世以来,一定尺寸的二级压砧上可获得的最大腔体体积一直是一个被忽略的问题.本工作通过八面体压腔的密封简化模型,计算出加载后密封边可流动空间的最大体积,进而确定出一定尺寸的二级压砧上可运行的最大腔体组装,并以边长为25.4 mm的二级压砧为例,计算了不同八面体边长与立方块截角边长的组合(八面体传压介质边长/二级压砧截角边长为18/11和25/17组装),不同八面体初始形状(八面体倒棱与否)加载后的密封边可流动空间的最大体积,并根据计算结果选定预密封条尺寸.在边长为25.4 mm的碳化钨立方块上,以叶腊石八面体为传压介质,对18/11和25/17组装进行压力标定实验.实验结果表明本工作中关于密封边体积的计算结果成立,同时在25.4 mm的碳化钨二级压砧上实现了25/17组装的稳定运行,获得接近厘米级的样品腔尺寸.     

YJ-3000t型紧装式六面顶大腔体高温高压实验装置样品室的压力标定

 在温度为389~1 245 ℃和砧面压力为1.0~5.0 GPa的条件下,利用金属高压熔融标定法,采用Cu、Al、Zn和Pb四种金属,对YJ-3000t型紧装式六面顶大腔体高温高压实验装置样品室内的实际压力进行了标定。通过对由四种金属所获得的标定结果的多项式三维模拟,获得了以叶蜡石为外传压介质、氧化铝为内传压介质的情况下,由砧面压力和样品室温度估算样品室内实际压力的定量表达式。该结果可为今后该设备上类似实验组装中样品腔内实际压力的估算提供方便准确的压力标。     

利用围压提高二级大腔体静高压装置压力极限的初步实验探索

采用基于国产铰链式六面顶压机二级6-8型大腔体静高压装置中的10/4(即八面体传压介质边长为10mm,二级WC-Co硬质合金立方块截角边长为4mm)组装,选择不同的围压材料和传压硬质合金台棱、圆片,在室温下用ZnTe的高压相变对压腔进行了压力标定。实验结果表明,叶蜡石是较合适的围压材料;但由于传压台棱、圆片自身强度的限制,及一级压腔形成的围压值较低等原因,致使实验没有达到预期的末级压砧围压增强效果。通过结合两种压腔的力学简化模型分析得知,围压材料与二级增压装置的预密封边共同形成了二级压腔的密封边,该大面积密封边消耗了系统的大部分加载力,因此在围压实验中没有观测到二级6-8型大腔体静高压装置压力极限的提高。     

基于拉曼频移的白宝石压腔无压标系统高温高压实验标定

在高压实验科学中, 各类宝石压腔是最为常见的高压设备之一, 其样品腔中压力的精确标定是实验的关键. 目前, 人们主要通过加入红宝石等压标物质来进行定压, 但压标物质的加入会增加实验的装样难度, 改变样品腔中的物理化学环境, 甚至直接与实验样品发生反应, 从而对实验结果产生影响. 在0–6.3 GPa和300–573 K下, 利用共聚焦拉曼显微镜, 根据白宝石压砧砧面的ν₁₂ 拉曼频移与温度和压力的变化关系, 建立了一套适用于高温高压水热体系的无压标白宝石压腔系统. 实验结果表明: 白宝石砧面的ν₁₂ 峰随着压力的升高发生线性蓝移, 而随着温度升高则发生线性红移, 且温度和压力对拉曼频移的影响存在耦合效应. 利用本实验结果, 可在高温高压下根据白宝石砧面的拉曼频移计算出样品腔的压力P=(Δλ-0.01913×ΔT)/(1.9158-0.00105×ΔT), 在物理学、材料学和地球科学等领域具有重要应用.     

二级6-8型静高压装置厘米级腔体内置加热元件的设计与温度标定

最近研制的二级6-8型大腔体静高压装置可在15GPa以上的压力条件下进行厘米级样品的高压合成,对此装置的高压腔内置加热元件进行了设计与实验测试,并标定了不同的腔体压力下加热功率和温度的关系,同时用六角氮化硼在没有触媒的情况下转化成立方氮化硼的合成实验验证了此装置所达到的温压条件。实验结果表明,所设计的加热组装在高压高温下运行稳定,可以在压力超过14GPa、温度超过1 800℃的条件下进行厘米级样品的高温高压处理。     

Preserving life of moss Ptychomitrium under very high pressure

The experiment on the search for life under very high pressure done on small animal, tardigrade, has been extended to the moss Ptychomitrium. Several spore placentas of the moss Ptychomitrium were sealed in a small Teflon capsule together with fluorinate as liquid pressure medium. The capsule was put in the center of a pyrophillite cube. This cube was compressed by six tungsten-carbide second-stage anvils with a front edge length of 4.0 mm. These anvils were compressed by a first stage, 250 ton press. It was proven that 80-90% of the spores were alive and germinated after being exposed to the maximum pressure of 7.5 GPa for up to 48 h. Furthermore, a relatively high germination rate of about 35% was retained even after exposure to 7.5 GPa for 6 days. The pressure tolerance of moss is found to be much stronger than tardigrades.     

The design of 2/8-type high-pressure cell applied to in situ neutron diffraction

The DIA-type Kawai cell possesses a larger volume and a quasi-hydrostatic pressure environment and has been widely used in materials' synthesis and x-ray diffraction experiments.However, few high-pressure in situ neutron diffraction experiments were performed in the DIA-type Kawai cell because there is no wide window for neutron diffraction and the second-stage anvils and guild block material attenuates the neutron signal significantly.In this work, we tentatively modified the normal DIA-type Kawai cell(MA 2-6-8) into a MA 2-8 mode by removing the six first-stage tungsten carbide anvils.As a consequence, the eight tungsten carbide anvils(Kawai cell) are directly driven by the guide blocks.The results of ex situ and in situ pressure calibration show that the cell pressure can reach 5 GPa with small truncation edge lengths(TEL) of 3 mm even at the load of 300 kN.It suggests that this MA 2-8 cell may open a new way for high-pressure and high-temperature in situ neutron diffraction.     

原位高压微米氧化锌电学性质的研究

利用集成有金属薄膜电极的金刚石对顶砧,对微米氧化锌样品进行了原位高压电导率测量.结果表明,在919 GPa时样品电导率达到最小值,在919—1122 GPa时样品电导率急剧增大,说明此时样品从纤锌矿结构向岩盐矿结构转变直至完全相变,1122　GPa为相变点.通过测量不同条件下高温退火处理的样品电导率,明显看到氧空位对电导率的影响. 关键词： 高压 微米氧化锌 电导率 金刚石对顶砧     

Pressure generation to 50 GPa in Kawai-type multianvil apparatus using newly developed tungsten carbide anvils

A pressure generation test for Kawai-type multianvil apparatus (KMA) has been made using second-stage anvils of a newly developed ultra-hard tungsten carbide composite. Superb performance of the new anvil with significantly less plastic deformation was confirmed as compared to those commonly used for the KMA experiments. A maximum pressure of ～48?GPa was achieved using the new anvils with a truncation edge length (TEL) of 1.5?mm, based on in situ X-ray diffraction measurements. Further optimization of materials and sizes of the pressure medium/gasket should lead to pressures even higher than 50?GPa in KMA using this novel tungsten carbide composite, which may also be used for expansion of the pressure ranges in other types of high pressure apparatus operated in large volume press.     

Opposed type double stage cell for Mbar pressure experiment with large sample volume

ABSTRACT

A new opposed type double-stage large volume cell has been developed to compress large volume samples to more than 100?GPa (Mbar) pressure. A pair of second-stage diamond anvils is introduced into the first-stage Paris–Edinburgh press. The double-stage large volume cell allows the generation of ultrahigh pressures using a large culet diameter of the second-stage diamond anvils (diameters of 0.5–1.2?mm). Pressure generation up to 131?GPa has been achieved by using the culet diameter of 0.5?mm. Sample volume of the double-stage large volume cell can be more than ～100 times larger than that of conventional Mbar experiment using a diamond anvil cell. The double-stage large volume cell has a large opening in the horizontal plane for X-ray measurements, which is particularly suited for the multi-angle energy dispersive X-ray diffraction measurement, thus opening a new way of in situ structural determinations of amorphous materials at Mbar pressures.     

Diamond anvil Raman gauge in multimegabar pressure range

The first-order Raman band of diamond anvils has been investigated at pressure up to 380 GPa in order to develop an optical pressure determination method. The high frequency edge of the band was calibrated by the pressure scale of the equation of state of Pt. The universality of the relationship between the sample pressure and the edge-frequency was confirmed up to 370 GPa and the usefulness of the diamond anvil Raman gauge was demonstrated. Using the diamond anvil Raman spectroscopy, the stress-state of the anvil culet was directly observed in the multimegabar pressure range. Obtained pressure dependence of the shear stress suggested further extension of feasible pressure beyond 400 GPa.